CN111476683A - Building engineering construction optimization system based on BIM - Google Patents

Abstract

The invention relates to a building construction optimization system, in particular to a building engineering construction optimization system based on BIM, which comprises a controller, a BIM modeling module, a building construction management module, a data reading module, a data mining module and a construction site acquisition unit, wherein the BIM modeling module is connected with the controller and is used for building a 3D file model; the technical scheme provided by the invention can effectively overcome the defects that the prior art is lack of effective management and optimization on the whole construction process and cannot check and accept the construction quality.

Description

Building engineering construction optimization system based on BIM

Technical Field

The invention relates to a building construction optimization system, in particular to a building engineering construction optimization system based on BIM.

Background

Building Information Modeling (BIM) is a three-dimensional Building model established on the basis of various relevant information data of a construction project, and real information of a Building is simulated through digital information. The method integrates all the information of the whole life cycle of a building project into a single building model, and also comprises process information such as construction progress, construction process, maintenance management and the like. With the gradual improvement of transformation and upgrading and informatization level of the building industry, BIM is expanded to the whole process of project management of the building engineering, and is a key foundation and an important strategy for the future progress of the building industry.

However, key technologies of a whole industrial chain from design, component production, assembly construction to quality acceptance in the current building industry are lack and low in integration level, and an effective platform is not formed in the collaborative development of a BIM information technology on the whole industrial chain of design, production processing, construction assembly and the like.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects in the prior art, the invention provides a building engineering construction optimization system based on BIM, which can effectively overcome the defects of the prior art that the whole building construction process is not effectively managed and optimized and the construction quality cannot be checked and accepted.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme:

a building engineering construction optimization system based on BIM comprises a controller, a BIM modeling module, a building construction management module, a data reading module, a data mining module and a construction site acquisition unit, wherein the BIM modeling module is connected with the controller and used for building a 3D file model, the building construction management module is connected with the controller and used for converting the 3D file model into a file with a standard format, the data reading module is connected with the controller and used for reading the file with the standard format and counting component information in the 3D file model, the data mining module is connected with the controller and used for conducting deep mining on the statistical information of the data reading module, and the construction site acquisition unit is connected with the controller and used for acquiring relevant actually measured data of a construction site;

the controller is connected with a house information acquisition module for acquiring the house construction related information of a construction site, the controller is connected with a construction sequence simulation module for simulating construction sequence of a construction site, the controller is connected with a component splitting module for splitting components of the integrally designed model and providing the split components to the BIM modeling module, the controller is connected with a component production management module which is used for converting the 3D file model constructed by the BIM modeling module into production data information to manage component production, the controller is connected with a component transportation management module for scanning bar codes of components produced in the 3D file model to acquire position information, the controller is connected with a component installation management module for installing components by combining the component transportation management module and the construction sequence simulation module, and is also connected with a construction quality inspection module for inspecting construction quality.

Preferably, the construction site acquisition unit comprises a Geographic Information System (GIS) and a laser scanning module.

Preferably, after the controller obtains the construction site measured data acquired by the construction site acquisition unit, the controller realizes the optimization design of the construction flow and the construction progress on the basis of the 3D file model constructed by the BIM modeling module.

Preferably, the construction sequence simulation module performs simulation on the construction sequence of the construction site according to the 3D file model constructed by the BIM modeling module.

Preferably, the component installation management module records actual component installation information according to the bar code information scanned by the component transportation management module in combination with the construction sequence simulated by the construction sequence simulation module.

Preferably, the construction quality inspection module comprises a splitting inspection module for splitting each component in the BIM modeling module into a plurality of inspection modules, a random extraction module for randomly selecting the inspection modules split from the splitting inspection module for acceptance, a comparison acceptance module for comparing the inspection modules extracted by the random extraction module with the acceptance criteria in the acceptance criteria repository, and a data storage module for storing comparison acceptance results of the comparison acceptance module and the acceptance results.

Preferably, after the split inspection module splits each component in the BIM modeling module into a plurality of inspection modules, each inspection module is given a unique corresponding number.

Preferably, after the random extraction module randomly selects the inspection module, the selected inspection module is labeled in the BIM modeling module.

Preferably, the data storage module converts the comparison and acceptance result of the comparison and acceptance module into a chart for storage.

(III) advantageous effects

Compared with the prior art, the building engineering construction optimization system based on the BIM has the following beneficial effects:

(1) the BIM modeling module constructs a 3D file model, the building construction management module converts the 3D file model into a standard format file, the data reading module reads the standard format file and counts component information in the 3D file model, the data mining module deeply mines the statistical information of the data reading module, and the construction site acquisition unit is used for acquiring relevant actual measurement data of a construction site, so that the construction process and the construction progress can be better optimally designed by combining construction site conditions;

(2) the construction sequence simulation module simulates construction sequence of a construction site, the component splitting module splits components of an integrally designed model and provides the components to the BIM, the component production management module converts a 3D file model constructed by the BIM into production data information to manage component production, the component transportation management module performs bar code scanning on the components produced in the 3D file model to acquire position information, and the component installation management module combines the component transportation management module and the construction sequence simulation module to perform component installation, so that the whole construction process can be effectively managed and optimized;

(3) the split inspection module in the split inspection module splits each component in the BIM modeling module into a plurality of inspection modules, the random extraction module randomly selects from the inspection module split by the split inspection module to check and accept, the comparison and acceptance module compares and accepts the inspection module extracted by the random extraction module and the acceptance standard in the acceptance standard storage library, and the data storage module stores the comparison and acceptance module comparison and acceptance result, so that the construction quality can be effectively accepted, and the optimization result of the system is verified.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It is obvious that the drawings in the following description are only some embodiments of the invention, and that for a person skilled in the art, other drawings can be derived from them without inventive effort.

FIG. 1 is a schematic diagram of the system of the present invention;

FIG. 2 is a schematic structural diagram of the construction quality acceptance unit shown in FIG. 1.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention. It is to be understood that the embodiments described are only a few embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

A building engineering construction optimization system based on BIM is disclosed, as shown in FIG. 1 and FIG. 2, and comprises a controller, a BIM modeling module connected with the controller and used for building a 3D file model, a building construction management module connected with the controller and used for converting the 3D file model into a standard format file, a data reading module connected with the controller and used for reading the standard format file and counting component information in the 3D file model, a data mining module connected with the controller and used for deep mining of statistical information of the data reading module, and a construction site acquisition unit connected with the controller and used for acquiring relevant measured data of a construction site;

the controller is connected with a house information acquisition module for acquiring house construction related information of a construction site, the controller is connected with a construction sequence simulation module for simulating construction sequence of the construction site, the controller is connected with a component splitting module for splitting components of an integrally designed model and providing the split components to a BIM modeling module, the controller is connected with a component production management module for converting a 3D file model constructed by the BIM modeling module into production data information to manage component production, the controller is connected with a component transportation management module for scanning bar codes of the components produced in the 3D file model to acquire position information, and the controller is connected with a component transportation management module for combining the component transportation management module, the construction sequence simulation module is connected with a component installation management module for component installation, and the controller is also connected with a construction quality inspection module for inspecting construction quality.

The construction site acquisition unit comprises a Geographic Information System (GIS) and a laser scanning module.

And after the controller obtains the construction site actual measurement data acquired by the construction site acquisition unit, the controller realizes the optimization design of the construction flow and the construction progress on the basis of the 3D file model constructed by the BIM modeling module.

And the construction sequence simulation module carries out simulation on the construction sequence of the construction site according to the 3D file model constructed by the BIM modeling module.

And the component installation management module records the actual component installation information according to the bar code information scanned by the component transportation management module and the construction sequence simulated by the construction sequence simulation module.

The construction quality inspection module comprises a splitting inspection module used for splitting each component in the BIM modeling module into a plurality of inspection modules, a random extraction module used for randomly selecting the inspection modules split from the splitting inspection module to be inspected, a comparison and acceptance module used for comparing and accepting the inspection modules extracted by the random extraction module and the acceptance criteria in the acceptance criteria storage library, and a data storage module used for storing comparison and acceptance results of the comparison and acceptance module.

And after the split inspection module splits each component in the BIM modeling module into a plurality of inspection modules, each inspection module is given a unique corresponding number.

And after the random extraction module randomly selects the inspection module, marking the correspondingly selected inspection module in the BIM modeling module.

And the data storage module converts the comparison and acceptance results of the comparison and acceptance module into a chart for storage.

The BIM modeling module constructs a 3D file model, the building construction management module converts the 3D file model into a standard format file, the data reading module reads the standard format file and counts component information in the 3D file model, the data mining module performs deep mining on the statistical information of the data reading module, and the construction site acquisition unit is used for acquiring relevant actual measurement data of a construction site, so that the construction process and the construction progress can be better optimally designed by combining construction site conditions.

The construction site acquisition unit comprises a Geographic Information System (GIS) and a laser scanning module. And after the controller obtains the construction site actual measurement data acquired by the construction site acquisition unit, the controller realizes the optimization design of the construction flow and the construction progress on the basis of the 3D file model constructed by the BIM modeling module.

The construction sequence simulation module simulates construction sequence of a construction site, the component splitting module splits components of an integrally designed model and provides the components for the BIM, the component production management module converts a 3D file model constructed by the BIM into production data information to manage component production, the component transportation management module performs bar code scanning on the components produced in the 3D file model to acquire position information, and the component installation management module combines the component transportation management module and the construction sequence simulation module to perform component installation, so that the whole construction process can be effectively managed and optimized.

And the construction sequence simulation module carries out simulation on the construction sequence of the construction site according to the 3D file model constructed by the BIM modeling module.

And the component installation management module records the actual component installation information according to the bar code information scanned by the component transportation management module and the construction sequence simulated by the construction sequence simulation module.

The split inspection module in the split inspection module splits each component in the BIM modeling module into a plurality of inspection modules, the random extraction module randomly selects from the inspection module split by the split inspection module to check and accept, the comparison and acceptance module compares and accepts the inspection module extracted by the random extraction module and the acceptance standard in the acceptance standard storage library, and the data storage module stores the comparison and acceptance module comparison and acceptance result, so that the construction quality can be effectively accepted, and the optimization result of the system is verified.

And after the split inspection module splits each component in the BIM modeling module into a plurality of inspection modules, each inspection module is given a unique corresponding number. And after the random extraction module randomly selects the inspection module, marking the correspondingly selected inspection module in the BIM modeling module. And the data storage module converts the comparison and acceptance results of the comparison and acceptance module into a chart for storage.

The building engineering construction optimization system based on the BIM provided by the invention has the following beneficial effects:

(1) the BIM modeling module constructs a 3D file model, the building construction management module converts the 3D file model into a standard format file, the data reading module reads the standard format file and counts component information in the 3D file model, the data mining module deeply mines the statistical information of the data reading module, and the construction site acquisition unit is used for acquiring relevant actual measurement data of a construction site, so that the construction process and the construction progress can be better optimally designed by combining construction site conditions;

(2) the construction sequence simulation module simulates construction sequence of a construction site, the component splitting module splits components of an integrally designed model and provides the components to the BIM, the component production management module converts a 3D file model constructed by the BIM into production data information to manage component production, the component transportation management module performs bar code scanning on the components produced in the 3D file model to acquire position information, and the component installation management module combines the component transportation management module and the construction sequence simulation module to perform component installation, so that the whole construction process can be effectively managed and optimized;

(3) the split inspection module in the split inspection module splits each component in the BIM modeling module into a plurality of inspection modules, the random extraction module randomly selects from the inspection module split by the split inspection module to check and accept, the comparison and acceptance module compares and accepts the inspection module extracted by the random extraction module and the acceptance standard in the acceptance standard storage library, and the data storage module stores the comparison and acceptance module comparison and acceptance result, so that the construction quality can be effectively accepted, and the optimization result of the system is verified.

The above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the corresponding technical solutions.

Claims (9)

1. The utility model provides a building engineering construction optimization system based on BIM which characterized in that: the system comprises a controller, a BIM modeling module, a building construction management module, a data reading module, a data mining module and a construction site acquisition unit, wherein the BIM modeling module is connected with the controller and used for building a 3D file model, the building construction management module is connected with the controller and used for converting the 3D file model into a file with a standard format, the data reading module is connected with the controller and used for reading the file with the standard format and counting component information in the 3D file model, the data mining module is connected with the controller and used for deeply mining statistical information of the data reading module, and the construction site acquisition unit is connected with the controller and used for acquiring relevant actual measurement data of a construction site;

the controller is connected with a house information acquisition module for acquiring the house construction related information of a construction site, the controller is connected with a construction sequence simulation module for simulating construction sequence of a construction site, the controller is connected with a component splitting module for splitting components of the integrally designed model and providing the split components to the BIM modeling module, the controller is connected with a component production management module which is used for converting the 3D file model constructed by the BIM modeling module into production data information to manage component production, the controller is connected with a component transportation management module for scanning bar codes of components produced in the 3D file model to acquire position information, the controller is connected with a component installation management module for installing components by combining the component transportation management module and the construction sequence simulation module, and is also connected with a construction quality inspection module for inspecting construction quality.

2. The BIM-based construction engineering optimization system of claim 1, wherein: the construction site acquisition unit comprises a Geographic Information System (GIS) and a laser scanning module.

3. The BIM-based construction engineering optimization system of claim 1, wherein: and after the controller obtains the construction site actual measurement data acquired by the construction site acquisition unit, the controller realizes the optimization design of the construction flow and the construction progress on the basis of the 3D file model constructed by the BIM modeling module.

4. The BIM-based construction engineering optimization system of claim 1, wherein: and the construction sequence simulation module carries out simulation on the construction sequence of the construction site according to the 3D file model constructed by the BIM modeling module.

5. The BIM-based construction engineering optimization system of claim 1, wherein: and the component installation management module records actual component installation information according to the bar code information scanned by the component transportation management module and the construction sequence simulated by the construction sequence simulation module.

6. The BIM-based construction engineering optimization system of claim 1, wherein: the construction quality inspection module comprises a splitting inspection module used for splitting each component in the BIM modeling module into a plurality of inspection modules, a random extraction module used for randomly selecting the inspection modules split from the splitting inspection module to perform acceptance inspection, a comparison acceptance module used for comparing the inspection modules extracted by the random extraction module with acceptance specifications in an acceptance specification storage library to perform acceptance inspection, and a data storage module used for storing comparison acceptance module comparison acceptance results.

7. The BIM-based construction engineering optimization system of claim 6, wherein: and after the splitting inspection module splits each component in the BIM modeling module into a plurality of inspection modules, each inspection module is given a unique corresponding number.

8. The BIM-based construction engineering optimization system of claim 6, wherein: and after the random extraction module randomly selects the inspection module, marking the correspondingly selected inspection module in the BIM modeling module.

9. The BIM-based construction engineering optimization system of claim 6, wherein: and the data storage module converts the comparison and acceptance results of the comparison and acceptance module into a chart for storage.

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